Download - Lec. 19 Friction and Tribology
1
Engine Friction and Lubrication
Engine friction– terminology
– Pumping loss
– Rubbing friction loss
Engine Friction: terminology
• Pumping work: Wp
– Work per cycle to move the working fluid through the engine
• Rubbing friction work: Wrf
• Accessory work: Wa
Total Friction work: Wtf = Wp + Wrf + Wa
Normalized by cylinder displacement MEP– tfmep = pmep + rfmep + amep
Net output of engine– bmep = imep(g) – tfmep
Mechanical efficiency– m = bmep / imep(g)
2
Friction components
1. Crankshaft friction Main bearings, front and rear bearing oil seals
2. Reciprocating friction Connecting rod bearings, piston assembly
3. Valve train Camshafts, cam followers, valve actuation mechanisms
4. Auxiliary components Oil, water and fuel pumps, alternator
5. Pumping loss Gas exchange system (air filter, intake, throttle, valves,
exhaust pipes, after-treatment device, muffler) Engine fluid flow* (coolant, oil)
*Have to be careful to avoid double-counting. The engine coolant and oil flow losses are provided for by the oil and water pump. The nature of the loss is a pumping loss though.
SI engine friction
(excluding pumping loss)
Source: FEV Brochure
Front end accessory
drives (FEAD)
3
Engine Friction
Fig. 13-1Comparison of major categories of friction losess: fmep at different loads and speeds for 1.6 L four-cylinder overhead-cam automotive Spark Ignition (SI) and Compression-Ignition (CI) engines.
Fuel energy accounting for
SI engine
SAE Paper 2000-01-2902
4
Pumping loss
V / Vmin
Fig. 13-15 Puming loop diagram for SI engine under firing conditions, showing throttling work Vd(pe-pi), and valve flow work
SI Engine losses
0 20 40 60 80 1000.0
0.1
0.2
0.3
0.4
Fu
el c
on
vers
ion
eff
icie
ncy
% of brake load
Gross indicated
BrakePumping loss
Rubbing loss
SI Engine; 2000 rpm
Preferred operating range
5
Sliding friction mechanism
Energy dissipation processes:• Detaching chemical binding between surfaces• Breakage of mechanical interference (wear)
Wear particle
Bearing Lubrication
6
Stribeck Diagram for journal bearing
Sommerfeld No.=
Decreasing load,increasing speed
Increasing load,Decreasing speed
= lubricant viscosityN = shaft rotation speed = loading force / area
Fig 13.3
Motoring break-down analysis
(a) (b)
Fig. 13-14Motored fmep versus engine speed for engine breakdown tests.(a) Four-cylinder SI engine.(b) Average results for several four- and six-cylinder DI diesel engines
7
Breakdown of engine mechanical friction
1 F.A. Martin, “Friction in Internal Combustion Engines,” I.Mech.E. Paper C67/85, Combustion Engines – Friction and Wear, pp.1-17,1985.
T. Hisatomi and H. Iida, “Nissan Motor Company’s New 2.0 L. Four-cylinder Gasoline Engine,” SAE Trans. Vol. 91, pp. 369-383, 1982; 1st engine.
M. Hoshi, “Reducing Friction Losses in Automobile Engines,” Tribology International, Vol. 17, pp 185-189, Aug. 1984.
J.T. Kovach, E.A. Tsakiris, and L.T. Wong, “Engine Friction Reduction for Improved Fuel Economy,” SAE Trans. Vol. 91, pp. 1-13, 1982
2nd engine.
Valve train friction
From Bosch
Handbook
Valve train friction depends on:• Total contact areas• Stress on contact areas
Spring and inertia loads
8
Low friction valve train
Valve train friction reduction
Engine speed (x1000 rpm)
“Friction loss reduction by new lighter valve train system,”JSAE Review 18 (1977), Fukuoka, Hara, Mori, and Ohtsubo
9
Piston ring pack
Piston ring-pack dimensions
(~6 mm height)
•Ring height 1.2-1.5 mm•Ring gap ~ 0.2 mm
10
Hydrodynamic lubrication of the
piston ring
Friction force and associated power loss
11
Piston slap
(by 1-2% of bore)
Change timing (earlier) of transition so that the cylinder pressure at transition is lower –less force to accelerate piston
Transition is a “roll over” so that slap is less severe
Also the “slap” force is lower
Bore distortion
4th order 2nd order 2nd order 3rd order
12
Lubricants
• Viscosity is a strong function of temperature
• Multi-grade oils (introduced in the 1950’s)– Temperature sensitive polymers to stabilize
viscosity at high temperatures
Cold: polymers coiled and inactive
Hot: polymers uncoiled and tangle-up: suppress high temperature thinning
• Stress sensitivity: viscosity is a function of strain rate
Viscosity
10W30 refers to upper viscosity limit equal to single grade SAE 10 at 0 deg F (-18C) and lower viscosity limit equal to SAE single grade 30 at 100 C.
13
Additive to lubricant
• VI Improvers– To improve viscosity at high temperature
• High temperature stability
• Acid neutralization
• Detergents and dispersants– To keep partial oxidation products and PM in
suspension and to prevent lacquer formation
• Anti-wear additives– E.g. Zinc dialkyldithiophospate (ZDDP)
– Formation of anti-wear film
Modeling of engine friction
• Overall engine friction model:– tfmep (bar) = fn (rpm, Vd, , B, S, ….)
– See text, Ch. 13, section 5; SAE Paper 900223, …
For engine speed N: tfmep = a + bN + cN2
• Detailed model:– see text Ch. 13, section 6; SAE Paper 890936
components
tfmep fmep With detailed modeling of component friction as a function of rpm, load, …
14
FMEP distribution
MAP= MAP=
Engine speed (x1000 rpm) Engine speed (x1000 rpm)
% o
f to
tal
FM
EP
Distribution of FMEP for a 2.0L I-4 engine; B/S = 1.0, SOHC-rocker arm, flat follower, 9.0 compression ratio
C = crankshaft and sealsR = reciprocating componentsV = valve train componentsA = Auxiliary componentsP = Pumping loss
SAE 890836